Tire puncture sealant

a technology of puncture sealant and tire, which is applied in the direction of coating, ink, other domestic articles, etc., can solve the problems of inability to inject sealant into punctured tires, poor storage stability, and steel cords in tires that may be rusted and corroded, and achieve excellent storage stability, low viscosity, and less pungent odor.

Inactive Publication Date: 2007-08-30
YOKOHAMA RUBBER CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0071]The tire puncture sealant in a fourth aspect of the present invention has a less pungent odor and hardly causes corrosion of steel cord.
[0072]The tire puncture sealant in the fourth aspect of the present invention has a comparatively low viscosity and an excellent storage stability while showing sealing properties equivalent to those of a conventional tire puncture sealant, when the synthetic resin emulsion is at least one emulsion selected from the group consisting of a urethane emulsion, an acrylic emulsion, a polyolefin emulsion, an ethylene-vinyl acetate emulsion, a vinyl acetate emulsion, and a polyvinyl chloride emulsion.
[0073]The tire puncture sealant in a fifth aspect of the present invention has a comparatively low viscosity and a less odor, while showing sealing properties equivalent to those of a conventional tire puncture sealant.
[0074]In addition, the tire puncture sealant in the fifth aspect of the present invention is excellent in storage stability and the like, and can be stored in a car for a long period of time when the tire puncture sealant has a hydrogen ion exponent of 7.5 or more.

Problems solved by technology

However, the natural rubber latex-based tire puncture sealants as described in JP 2004-035867 A and JP 3210863 B show poor storage stability.
When the service life is exceeded, the tire puncture sealant may solidify or gelate to significantly reduce its fluidity, thus leading to inability of the sealant to be injected into a punctured tire.
Further, the tire puncture sealant is adjusted to a pH of about 9.0 to 12.0, so steel cord in the tire may be rusted and corroded, and the tire puncture sealant may cause inflammation on the skin of a person when he / she touches it.
However, even when the deproteinized natural rubber latex is used, the problems of odor and corrosion of steel cord still remain and a complicated production process such as deproteinization treatment is required.
When the temperature is extremely low, for example, at midwinter or during the snow fall, the viscosity of the sealant is increased to readily cause the above-mentioned problems when the sealant is injected into the tire.
Therefore, as in the case of the natural rubber latex-based tire puncture sealant, the NBR latex-based tire puncture sealant may suffer from such problems as generation of pungent odor, corrosion of steel cord, and inflammation of skin when the skin touches the sealant.

Method used

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Experimental program
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examples

[0359]Hereinafter, the present invention will be specifically described by way of examples. However, the present invention is not limited to these examples.

1. Examples of the Tire Puncture Sealant in the First Aspect of the Present Invention

Preparation of Urethane Emulsion (Synthetic Examples 1-1 to 1-5)

[0360]The respective components of (A) listed in Table 1 below were mixed in amounts (g) shown in Table 1, to thereby synthesize each of carboxy group-containing urethane prepolymers.

[0361]Next, the respective components of (B) listed in Table 1 below were added to each of the carboxy group-containing urethane prepolymers in amounts (g) shown in Table 1. The mixture was emulsified with sufficient stirring to prepare each of urethane emulsions in Synthetic Examples 1-1 to 1-5.

[0362]The hydrogen ion exponent of each of the resulting urethane emulsions was measured with a pH meter (manufactured by Hitachi High-Technologies Corporation, hereinafter same as this). The results are shown in...

examples 1-1 to 1-26

and Comparative Examples 1-1 and 1-2

[0381]The respective components listed in Table 2 below were mixed in compositions (parts by weight) shown in Table 2 with a stirring device, thereby preparing the respective tire puncture sealants shown in Table 2.

[0382]The hydrogen ion exponent of each of the tire puncture sealants thus obtained was measured with a pH meter. Each tire puncture sealant was evaluated for the rustproof properties, odor, freezing point, sealing properties, thermal shock cycle stability, shaking test, storage stability, liquid supply properties, and air supply properties.

[0383]The results are shown in Table 2.

(Rustproof Properties)

[0384]Each tire puncture sealant was applied onto the surface of a steel plate having been degreased with methyl ethyl ketone, and then left standing for 24 hours at 20° C. to be dried. Subsequently, the steel plate was immersed in hot water at 50° C. and left standing for 7 days. After that, the sealant was peeled off of the steel plate an...

examples 2-1 to 2-14

and Comparative Examples 2-1 and 2-2

[0423]The respective components listed in Table 4 below were mixed in compositions (parts by weight) shown in Table 4 with a stirring device, thereby preparing the respective tire puncture sealants shown in Table 4.

[0424]The hydrogen ion exponent of each of the tire puncture sealants thus obtained was measured with a pH meter. Each tire puncture sealant was evaluated in the same manner as above for the rustproof properties, odor, freezing point, sealing properties, thermal shock cycle stability, shaking test, storage stability, liquid supply properties, and air supply properties.

[0425]The results are shown in Table 4.

TABLE 4ComparativeExampleExample2-12-22-32-42-52-62-72-82-92-102-112-122-132-142-12-2Acrylic emulsion 1100100100100100100Acrylic emulsion 2100100100100100100100100Natural rubber100latexFormulation100Example 2-1 (NBRtire puncturesealant)Tackifier1001001001501501501501508080808015015080Antifreezing agent100150707010015070705020050200100...

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Abstract

A tire puncture sealant including a urethane emulsion, an acrylic emulsion or a polyolefin emulsion, and an antifreezing agent has a comparatively low viscosity and an excellent storage stability while showing sealing properties equivalent to those of a conventional tire puncture sealant. A tire puncture sealant including a synthetic resin emulsion and an antifreezing agent, and having a hydrogen ion exponent of 5.5 to 8.5 has a less pungent odor and hardly causes corrosion of steel cord. A tire puncture sealant including a chloroprene emulsion and an antifreezing agent and having a hydrogen ion exponent of less than 9.0 has a comparatively low viscosity and a less odor while showing sealing properties equivalent to those of a conventional tire puncture sealant.

Description

[0001]The entire contents of documents cited in this specification are incorporated herein by reference.BACKGROUND OF THE INVENTION[0002]The present invention relates to a tire puncture sealant.[0003]Conventionally, a tire puncture sealant for repairing a punctured tire, which is prepared by blending natural rubber latex with an emulsion of a tackifier resin and an antifreezing agent, has been widely used (see, for example, JP 2004-035867 A and JP 3210863 B).[0004]The tire puncture sealant is in the form of a latex in which natural rubber particles and tackifier resin particles repel each other by ionic repulsion, and dispersed and suspended in an aqueous solution of the antifreezing agent.[0005]An example of the tire puncture sealant of this type is one including a latex of natural rubber, an emulsion of a tackifier resin, and an antifreezing agent, in which the tackifier resin of the tackifier resin emulsion is an aromatic modified terpene resin, and with respect to a total A+B+C ...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): B29C73/00
CPCB29L2030/00B29C73/163
Inventor OKAMATSU, TAKAHIRO
Owner YOKOHAMA RUBBER CO LTD
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